Artículos de revistas
General subpopulation framework and taming the conflict inside populations
Fecha
2015Registro en:
Evolutionary Computation,Cambridge : MIT Press,v. 23, n. 1, p. 1-36, 2015
1063-6560
Autor
Delbem, Alexandre Claudio Botazzo
Vargas, Danilo Vasconcellos
Takano, Hirotaka
Takano, Hirotaka
Delbem, Alexandre Cláudio Botazzo
Institución
Resumen
Structured evolutionary algorithms have been investigated for some time. However,
they have been under explored especially in the field of multi-objective optimization.
Despite good results, the use of complex dynamics and structures keep the understanding
and adoption rate of structured evolutionary algorithms low. Here, we propose a
general subpopulation framework that has the capability of integrating optimization
algorithms without restrictions as well as aiding the design of structured algorithms.
The proposed framework is capable of generalizing most of the structured evolutionary
algorithms, such as cellular algorithms, island models, spatial predator-prey, and
restricted mating based algorithms. Moreover, we propose two algorithms based on
the general subpopulation framework, demonstrating that with the simple addition
of a number of single-objective differential evolution algorithms for each objective,
the results improve greatly, even when the combined algorithms behave poorly when
evaluated alone at the tests. Most importantly, the comparison between the subpopulation
algorithms and their related panmictic algorithms suggests that the competition
between different strategies inside one population can have deleterious consequences
for an algorithm and reveals a strong benefit of using the subpopulation framework.